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Solving COMSOL Multiphysics problems provides a comprehensive and unified introductory COMSOL Multiphysics training course. On completion you will be proficient in the skills to use COMSOL Multiphysics to set up, solve, troubleshoot and successfully analyze your own multiphysics problems.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

This two-day course will cover the efficient use of COMSOL Multiphysics to solve problems in the medical device industry. It covers modeling challenges specific to medical devices, and several examples including tissue ablation and a cardiovascular application. The class includes technical lectures, hands-on COMSOL examples, and assistance on specific models from course registrants.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

This two-day course provides an introduction to solving acoustic problems using COMSOL Multiphysics and details best practices for obtaining high quality solutions. Problem types examined span a wide range from classical pressure acoustics to advanced topics such as time domain solutions, geometric acoustics, acoustophoresis and aeroacoustics.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

This class will cover most of the structural analysis capabilities in COMSOL Multiphysics including large deformations, material models, contact mechanics, and convergence issues. The class includes technical lectures and hands-on COMSOL examples.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the AC/DC Module for modeling steady-state, transient, and low-frequency electromagnetic phenomena relevant for applications including resistors, capacitors, inductors and coils, motors, magnets, and electromagnetic heating.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

Learn how to use the Microfluidics Module to model single- and two-phase flow. Topics include pressure-driven flow, electrokinetic flow, free molecular flow, heat and mass transport, as well as particle tracing.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the AC/DC Module for modeling steady-state, transient, and low-frequency electromagnetic phenomena relevant for applications including resistors, capacitors, inductors and coils, motors, magnets, and electromagnetic heating.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

This two-day course provides an introduction to solving acoustic problems using COMSOL Multiphysics and details best practices for obtaining high quality solutions. Problem types examined span a wide range from classical pressure acoustics to advanced topics such as time domain solutions, geometric acoustics, acoustophoresis and aeroacoustics.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the AC/DC Module for modeling steady-state, transient, and low-frequency electromagnetic phenomena relevant for applications including resistors, capacitors, inductors and coils, motors, magnets, and electromagnetic heating.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

Learn how to simulate fluid flow with COMSOL Multiphysics and the CFD Module. Tohttps://cww.comsol.com/ems2/templates?t=EMS_CONTENT_TEMPLATE#pics include single-phase flow (laminar and turbulent), multiphysics flow, and multiphase flow.

This class will cover most of the structural analysis capabilities in COMSOL Multiphysics including large deformations, material models, contact mechanics, and convergence issues. The class includes technical lectures and hands-on COMSOL examples.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

Learn how to use the AC/DC Module for modeling steady-state, transient, and low-frequency electromagnetic phenomena relevant for applications including resistors, capacitors, inductors and coils, motors, magnets, and electromagnetic heating.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

This two-day course provides an introduction to solving acoustic problems using COMSOL Multiphysics and details best practices for obtaining high quality solutions. Problem types examined span a wide range from classical pressure acoustics to advanced topics such as time domain solutions, geometric acoustics, acoustophoresis and aeroacoustics.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Solving COMSOL Multiphysics problems provides a comprehensive and unified introductory COMSOL Multiphysics training course. On completion you will be proficient in the skills to use COMSOL Multiphysics to set up, solve, troubleshoot and successfully analyze your own multiphysics problems.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

This two-day course will cover the efficient use of COMSOL Multiphysics to solve problems in the medical device industry. It covers modeling challenges specific to medical devices, and several examples including tissue ablation and a cardiovascular application. The class includes technical lectures, hands-on COMSOL examples, and assistance on specific models from course registrants.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

This two-day course provides an introduction to solving acoustic problems using COMSOL Multiphysics and details best practices for obtaining high quality solutions. Problem types examined span a wide range from classical pressure acoustics to advanced topics such as time domain solutions, geometric acoustics, acoustophoresis and aeroacoustics.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

This class will cover most of the structural analysis capabilities in COMSOL Multiphysics including large deformations, material models, contact mechanics, and convergence issues. The class includes technical lectures and hands-on COMSOL examples.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the AC/DC Module for modeling steady-state, transient, and low-frequency electromagnetic phenomena relevant for applications including resistors, capacitors, inductors and coils, motors, magnets, and electromagnetic heating.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

Learn how to use the Microfluidics Module to model single- and two-phase flow. Topics include pressure-driven flow, electrokinetic flow, free molecular flow, heat and mass transport, as well as particle tracing.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the AC/DC Module for modeling steady-state, transient, and low-frequency electromagnetic phenomena relevant for applications including resistors, capacitors, inductors and coils, motors, magnets, and electromagnetic heating.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

This two-day course provides an introduction to solving acoustic problems using COMSOL Multiphysics and details best practices for obtaining high quality solutions. Problem types examined span a wide range from classical pressure acoustics to advanced topics such as time domain solutions, geometric acoustics, acoustophoresis and aeroacoustics.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the AC/DC Module for modeling steady-state, transient, and low-frequency electromagnetic phenomena relevant for applications including resistors, capacitors, inductors and coils, motors, magnets, and electromagnetic heating.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

Learn how to simulate fluid flow with COMSOL Multiphysics and the CFD Module. Tohttps://cww.comsol.com/ems2/templates?t=EMS_CONTENT_TEMPLATE#pics include single-phase flow (laminar and turbulent), multiphysics flow, and multiphase flow.

This class will cover most of the structural analysis capabilities in COMSOL Multiphysics including large deformations, material models, contact mechanics, and convergence issues. The class includes technical lectures and hands-on COMSOL examples.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

Learn how to use the Application Builder to turn your validated models into custom applications with a restricted number of inputs and controlled outputs for use by colleagues without simulation expertise.

Learn how to use the AC/DC Module for modeling steady-state, transient, and low-frequency electromagnetic phenomena relevant for applications including resistors, capacitors, inductors and coils, motors, magnets, and electromagnetic heating.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.

This two-day course provides an introduction to solving acoustic problems using COMSOL Multiphysics and details best practices for obtaining high quality solutions. Problem types examined span a wide range from classical pressure acoustics to advanced topics such as time domain solutions, geometric acoustics, acoustophoresis and aeroacoustics.

An intensive introduction to the workflow and key features of COMSOL Multiphysics via a combination of guided hands-on examples, lecture, and tutorials. This course is a recommended prerequisite for all specialized courses.